IEC 62061 is a widely recognized standard for the safety of electrical, electronic, and programmable electronic systems used in machinery applications. One of the key concepts in this standard is the Safety Integrity Level (SIL), which is a measure of the effectiveness of a safety system in preventing or mitigating hazardous events.
IEC 62061 defines four SIL levels, ranging from SIL 1 (low) to SIL 4 (high). These SIL levels correspond to specific requirements for system reliability, availability, and fault tolerance. The standard provides guidelines for achieving a certain level of safety, known as the Safety Integrity Level (SIL), which is a critical factor in ensuring the safety of machinery.
SIL 1 is the lowest level of safety, and it provides the basic requirements for safety-related electrical, electronic, and programmable electronic systems in machinery. SIL 2 is an intermediate level, providing additional requirements for safety-related systems. SIL 3 and SIL 4 are the highest levels of safety, providing the most stringent requirements for safety-related systems.
IEC 62061 takes into account all stages of a machine's lifecycle, including design, installation, operation, maintenance, and decommissioning. The standard considers various factors that affect the safety of machinery, such as the number and complexity of safety-related systems, the criticality of the machine's functions, and the operating environment.
In addition to SIL, IEC 62061 provides guidelines for the selection and configuration of safety-related systems, as well as the testing and validation of safety systems. The standard also provides guidance for the management of safety-related risks and the development of safety strategies.
IEC 61508 is a broader standard that covers functional safety in various industries, including machinery. It provides a framework for managing risks associated with safety-related systems using E/E/PES and defines four functional safety levels, which are SIL 1 to SIL 4.
Overall, IEC 62061 and IEC 61508 provide a comprehensive framework for ensuring the safety of electrical, electronic, and programmable electronic systems used in machinery. By defining specific requirements for safety-related systems and providing guidelines for system design, installation, operation, and maintenance, these standards help to reduce the risk of hazardous events and ensure the reliability and availability of machinery.